Team:PennState/diauxie/TheSystem
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<p class="start">In wild-type <em>E. coli</em> the xyl operon controls xylose transport and metabolism.</p> | <p class="start">In wild-type <em>E. coli</em> the xyl operon controls xylose transport and metabolism.</p> | ||
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<p>The presence of xylose and the absence of glucose are required for natural transcriptional activation in the xyl operon. Our goal was to have activation only dependent on the presence of xylose, independently of glucose.</p> | <p>The presence of xylose and the absence of glucose are required for natural transcriptional activation in the xyl operon. Our goal was to have activation only dependent on the presence of xylose, independently of glucose.</p> | ||
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Revision as of 15:14, 28 October 2008
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Diauxie EliminationNHR
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The System
In wild-type E. coli the xyl operon controls xylose transport and metabolism.
The system also requires binding of the activated complex cAMP-CRP (Cyclic adenosine monophosphate - cAMP Receptor Protein) to the individual CRP binding site to activate transcription. In terms of circuits, XylR and cAMP-CRP are the two inputs for this “and” logic gate. The protein cAMP is an indicator of the glucose concentration in the cell and becomes more abundant with glucose depletion. Another protein called XylE is a passive xylose transporter and exists elsewhere in the E. coli chromosome. Over expression of the xylE gene may help xylose enter the cell and begin its metabolism cycle. Natural Operation - PN plasmid (see Implementation)The presence of xylose and the absence of glucose are required for natural transcriptional activation in the xyl operon. Our goal was to have activation only dependent on the presence of xylose, independently of glucose. |